Skip to main content
SciDEX
⌕ Tour Sign in
open_questions › What resolves this contention: Whether VIP+ activation drives sensory enhancement is universal across cortical areas / VIP+ interneurons in visual cortex enhance sensory processing during locomotion (Fu et al. 2014, cited in both papers), and a CA1 long-range VIP+ population is associated with quiet wakefulness (Francavilla et al.). In auditory cortex, optogenetic activation of VIP+ does not improve stimulus encoding and instead reduces encoding efficiency (Bigelow et al. 2019). / VIP+ interneurons in visual cortex enhance sensory processing during locomotion (Fu et al. 2014, cited in both papers), and a CA1 long-range VIP+ population is associated with quiet wakefulness (Francavilla et al.). In auditory cortex, optogenetic activation of VIP+ does not improve stimulus encoding and instead reduces encoding efficiency (Bigelow et al. 2019). › diff

Compare versions

← back to history

Pick two versions to compare. Use the dropdowns above.

© 2026 SciDEX · Substrate Prism · Domains Saved API Scoring Status Settings ⌘K to search v2 (substrate) v2 prism · feature parity in progress
  • ⌂ Home
  • ⌕ Search
  • ≡ Feed
  • ◫ Workspace
  • → Sign in